Method and apparatus for pipelined joint equalization and decoding for gigabit communications

1. A method for processing a signal received from a dispersive channel using a reduced-state sequence estimation technique, said channel having a channel impulse response, said method comprising the steps of: precomputing partial intersymbol interference estimates for each of a plurality of postcursor taps of said channel impulse response, wherein said precomputed partial intersymbol interference estimates are based on each possible value for a data symbol; selecting a precomputed partial intersymbol interference estimate for each of said plurality of postcursor taps based on a past decision from a corresponding state, wherein a selected partial intersymbol interference estimate for a first postcursor tap is a selected intersymbol interference estimate; computing a branch metric based on said selected intersymbol interference estimate; computing a new path metric for a path extension from a corresponding state based on said branch metric; and determining a best survivor path into a state by selecting a path having a best new path metric among said corresponding computed new path metrics.

2. The method of claim 1 , wherein said first selecting step comprises the step of selecting a precomputed partial intersymbol interference estimate for a group of said plurality of postcursor taps based on past decisions, wherein a selected partial intersymbol interference estimate for a first group of postcursor taps is a selected intersymbol interference estimate.

3. The method of claim 1 , wherein said step of precomputing said partial intersymbol interference estimates for a given group of postcursor taps further comprises the step of combining a (i) partial intersymbol interference estimate for a previous group of postcursor taps, and (ii) a combination of products of channel coefficients and possible symbol values for each tap of said plurality of postcursor taps.

4. A signal processor for processing a signal received from a dispersive channel using a reduced-state sequence estimation technique, said channel having a channel impulse response, said signal processor comprising: a decision feedback unit for precomputing partial intersymbol interference estimates for each of a plurality of postcursor taps of said channel impulse response, wherein said precomputed partial intersymbol interference estimates are based on each possible value for a data symbol; a multiplexer for selecting a precomputed partial intersymbol interference estimate for each of said plurality of postcursor taps based on a past decision from a corresponding state, wherein a selected partial intersymbol interference estimate for a first postcursor tap is a selected intersymbol interference estimate; a branch metrics unit for computing a branch metric based on said selected intersymbol interference estimate; and an add-compare-select unit for computing a new path metric for a path extension from a corresponding state based on said branch metric and determining a best survivor path into a state by selecting a path having a best new path metric among said corresponding computed new path metrics.

5. The signal processor of claim 4 , wherein said decision feedback unit selects a precomputed partial intersymbol interference estimate for a group of said plurality of postcursor taps based on past decisions, wherein a selected partial intersymbol interference estimate for a first group of postcursor taps is a selected intersymbol interference estimate.

6. The signal processor of claim 4 , wherein said decision feedback unit precomputes said partial intersymbol interference estimates for a given group of postcursor taps is further configured to combine a (i) partial intersymbol interference estimate for a previous group of postcursor taps, and (ii) a combination of products of channel coefficients and possible symbol values for each tap of said plurality of postcursor taps.

7. An apparatus for processing a signal received from a dispersive channel using a reduced-state sequence estimation technique, said channel having a channel impulse response, said apparatus comprising: a memory; and at least one processor, coupled to the memory, operative to: precompute partial intersymbol interference estimates for each of a plurality of postcursor taps of said channel impulse response, wherein said precomputed partial intersymbol interference estimates are based on each possible value for a data symbol; select a precomputed partial intersymbol interference estimate for each of said plurality of postcursor taps based on a past decision from a corresponding state, wherein a selected partial intersymbol interference estimate for a first postcursor tap is a selected intersymbol interference estimate; compute a branch metric based on said selected intersymbol interference estimate; compute a new path metric for a path extension from a corresponding state based on said branch metric; and determine a best survivor path into a state by selecting a path having a best new path metric among said corresponding computed new path metrics.

8. The apparatus of claim 7 , wherein said first selecting step comprises the step of selecting a precomputed partial intersymbol interference estimate for a group of said plurality of postcursor taps based on past decisions, wherein a selected partial intersymbol interference estimate for a first group of postcursor taps is a selected intersymbol interference estimate.

9. The apparatus of claim 7 , wherein said step of precomputing said partial intersymbol interference estimates for a given group of postcursor taps further comprises the step of combining a (i) partial intersymbol interference estimate for a previous group of postcursor taps, and (ii) a combination of products of channel coefficients and possible symbol values for each tap of said plurality of postcursor taps.